RU60978U1 - DEVICE FOR TESTING A COLUMN OF PIPES IN A WELL - Google Patents

Abstract

The proposal relates to the oil and gas industry, namely to repair wells and is intended for crimping a pipe string in a well. A device for crimping a pipe string in a well comprises a housing with a central channel and a saddle mounted in the central channel of the housing with axial movement of the sleeve with radial channels in the upper part, as well as an additional sleeve installed with the possibility of limited axial movement coaxially in the central channel of the housing outside the sleeve . The additional sleeve is equipped with an additional seat on top and an additional locking element on the bottom. The housing is equipped with an internal cylindrical groove in which an insulator is installed, which excludes the interaction of the housing with an additional sleeve in its upper position. The insulator is equipped with a shear element made in the form of a ring fixing an additional sleeve in the upper position relative to the housing. The insulator and shear element are made of a dielectric material (for example, fluoroplastic) in the form of a single part. The locking element is made at the upper end of the sleeve and has the ability to interact with the additional seat additional sleeve. The additional locking element of the additional sleeve has the ability to tightly interact with the seat of the housing after the destruction of the shear element and the axial movement of the additional sleeve to the lower position. The sleeve and the additional sleeve are made of easily destructible material (for example, magnesium) due to electrochemical corrosion in an aggressive environment (well fluid) during the direct interaction of the additional sleeve with a body made of 45 steel, for example. The body and additional sleeve are tightened relative to each other , for example, the case has an inner diameter of D ₁ H7, and an additional sleeve with an outer diameter of D ₂ r6. The proposed valve for crimping an additional casing string has a simple design, and therefore, it is cheap and easy to manufacture, which saves material and financial resources. 1 ill. for 1 liter

Description

The proposal relates to the oil and gas industry, namely to repair wells and is intended for crimping a pipe string in a well.

A device for crimping casing (the copyright certificate SU No. 1010256, E 21 B 34/10 publ. In BI No. 13 of 04/07/1983), comprising a housing, a self-sealing sleeve, a hollow spring-loaded sleeve with radial holes and connected to the sleeve spacer a cone with grooves on the side surface, interacting with the cuff, the device is equipped with a differential piston installed in the upper part of the sleeve with a jet pump in the lower part, the piston in the upper part having side openings for connecting the device cavities above and under the piston, and the receiving chamber of the jet pump is connected with the piston cavity.

The closest in technical essence to the proposed one is a valve for casing strings (copyright certificate SU No. 1120093, E 21 B 34/10 published in BI No. 39 of 10.23.1984), comprising a housing with central and peripheral axial channels, movably mounted with the possibility of axial movement in the central channel of the housing, a sleeve with a crimping diaphragm and radial channels in the upper part and a locking element, as well as an additional sleeve mounted coaxially movably on shear elements in the central channel of the housing above its periphery malarial channels, wherein the locking element is designed as a float and is rigidly connected to the lower portion of the movable sleeve, the latter has additional radial channels mating with peripheral channels at its upper housing position.

Both analog and prototype have, to one degree or another, common flaws:

- firstly, the complexity of the design, due to the large number of nodes and parts;

- secondly, the complexity of manufacturing, due to the large number of technically complex parts, which leads to an increase in the cost of the structure as a whole and as a result of its high cost.

The technical task of the utility model is to simplify the design, and as a result, reduce the metal consumption and cost of the device.

The stated technical problem is solved by a device for crimping a pipe string in a well, comprising a body with a central channel and a saddle installed in

the central channel of the housing with the possibility of axial movement of the sleeve with radial channels in the upper part, as well as an additional sleeve installed with the possibility of limited axial movement coaxially in the central channel of the housing outside the sleeve, shut-off and shear elements.

What is new is that the additional sleeve is equipped with an additional seat on top and with an additional locking element on top, while the body is equipped with an internal cylindrical groove in which an insulator is installed, which excludes the case from interacting with the additional sleeve in its upper position, and the insulator is equipped with a shear element made in in the form of a ring fixing the additional sleeve in the upper position relative to the housing, while the insulator and shear element are made of dielectric material, and The support element is made at the upper end of the sleeve and is able to interact with the additional seat of the additional sleeve, and the additional locking element of the additional sleeve has the ability to tightly interact with the seat of the housing after the shear element is destroyed and the additional sleeve is axially moved to the lower position, the sleeve and the additional sleeve made of easily destructible material due to electrochemical corrosion in an aggressive environment during the interaction of an additional sleeve with pusom.

The figure shows the proposed device for crimping a string of pipes in the well in longitudinal section.

A device for crimping a pipe string in a well comprises a housing 1 with a central channel 2 and a saddle 3, mounted in the central channel 2 of the housing 1 with axial movement of the sleeve 4 with radial channels 5 in the upper part, as well as an additional sleeve 6, mounted with the possibility of limited axial moving coaxially in the central channel 2 of the housing 1 outside the sleeve 4.

The additional sleeve 6 is equipped with an additional seat 7 on top and an additional locking element 8 on the bottom.

The housing 1 is equipped with an inner cylindrical groove 9, in which an insulator 10 is installed, hermetically eliminating the interaction of the housing 1 with the additional sleeve 6 in its upper position. The insulator 10 is equipped with a shear element 11, made in the form of a ring, fixing the additional sleeve 6 in the upper position relative to the housing 1. The insulator 10 and the shear element 11 are made of dielectric material (for example, fluoroplastic) in the form of a single part.

The locking element 12 is made at the upper end of the sleeve 4 and has the ability to interact with the additional seat 7 additional sleeve 6.

The additional locking element 8 of the additional sleeve 6 is able to tightly interact with the seat 3 of the housing 1 after the destruction of the shear element 11 and the axial movement of the additional sleeve 6 to the lower position.

The sleeve 4 and the additional sleeve 6 are made of easily destructible material (for example, magnesium) due to electrochemical corrosion in an aggressive environment (well fluid) during the direct interaction of the additional sleeve 6 with the housing 1, made for example of steel 45.

The housing 1 and the additional sleeve 6 relative to each other are tightened, for example, the housing 1 has an inner diameter of D ₁ H7, and the additional sleeve 6 has an outer diameter of D ₂ r6.

A device for crimping a string of pipes in a well works as follows.

The assembled device, as shown in the figure, is lowered into the well at the end of the test pipe string 13. During the descent of the extruded pipe string 13, the fluid in the well lifts the sleeve 4 relative to the additional sleeve 6 up to the stop of the process annular stop 14 of the sleeve 6 into the lower end of the additional sleeve 6, while the liquid in the well is passed from bottom to top through the radial channels 5 of the sleeve 4, filling the internal space of the test pipe string 13.

After lowering the test string of pipes 13 to a predetermined depth, its upper end is mounted on the support flange of the wellhead (not shown in FIG.) Of the well.

Next, the straining of the tested pipe string 13 with the pump unit is made and filled with process fluid to the mouth.

After filling the test pipe string 13 with process fluid, they begin to smoothly create excess pressure in it, while the locking element 12 of the sleeve 4 seals hermetically on the additional seat 7 of the additional sleeve 6.

As the overpressure increases, for example, at 4.0-5.0 MPa, the shear element 11, made in the form of a ring of dielectric material, breaks down (for example, fluoroplastic).

As a result, the additional sleeve 6 under the action of excess pressure moves down and out of contact with the insulator 10 located in the inner cylindrical groove 9 of the housing 1.

The movement of the additional sleeve 6 downward relative to the housing 1 continues until the additional sleeve 6 with the additional locking element 8 hermetically sits on the saddle 3 of the housing.

The excess pressure in the molded pipe string 13 continues to rise and adjusted to the intended pressure testing in accordance with the work plan. Next, the pressure testing of the pipe string 13 with a certain exposure time.

After crimping, the pressure in the pipe string 13 is vented, while the additional sleeve 8, as well as the sleeve 6 made of magnesium, remains in direct contact with the housing 1 made of, for example, steel 45, which leads to electrochemical corrosion in an aggressive environment (well fluid) ), the result of which is that the additional sleeve 8 and the sleeve 6 are destroyed, while the passage section with a diameter of d (see Fig.) of the pipe string 13 is preserved.

The proposed valve for crimping an additional casing string has a simple design, and therefore, it is cheap and easy to manufacture, which saves material and financial resources.

Claims (1)

A device for crimping a pipe string in a well, comprising a housing with a central channel and a saddle mounted in the central channel of the housing with axial movement of the sleeve with radial channels in the upper part, and an additional sleeve installed with the possibility of limited axial movement coaxially in the central channel of the housing from the outside bushings, locking and shear elements, characterized in that the additional sleeve is provided on top with an additional seat, and below with an additional locking element, when Ohm, the housing is equipped with an inner cylindrical groove in which an insulator is installed, which excludes the interaction of the housing with the additional sleeve in its upper position, the insulator is equipped with a shear element made in the form of a ring fixing the additional sleeve in the upper position relative to the body, while the insulator and the shear element are made of dielectric material, and the locking element is made at the upper end of the sleeve and has the ability to interact with the additional seat additional sleeve, and the additional locking element of the additional sleeve has the possibility of tight interaction with the seat of the housing after the shear element is destroyed and the additional sleeve is axially moved to the lower position, the sleeve and additional sleeve made of easily destructible material due to electrochemical corrosion in an aggressive environment during the interaction of the additional sleeve with the body.